If you want to observe the free-fall phenomenon in action, try the
following demonstration in your home.

Find a plastic or paper cup.

Drill or punch two holes (approximately one-quarter inch in diameter) on opposite sides of the cup .

Fill the cup to the rim with water. The water will flow from the cup through the holes.

Now refill the cup, cover the holes with your fingers, and drop the cup from an elevated position. The water won't flow out of the holes during this free fall.

What makes it work?
When the cup is at rest, the force of gravity pulls downward upon the
water. At the location of the holes, there is nothing to balance gravity's force and prevent water from spilling out of the cup.

However, when the cup is in free fall, the water will not leak, making it seem as though the water is not experiencing the downward pull of
gravity. It is merely falling to the ground at the same rate as its surroundings (the cup).

This feeling of weightlessness (the sensation that you are not experiencing the downward pull of gravity) is also experienced by riders on free-fall rides. On the way to the top, the riders are pressed against their seats, which
provides a sense of weight. But as they free fall, they fall at the same
rate as their surroundings-in this case, their seats. Without the force
of their surroundings pressing on them, the riders feel like they are
weightless. But, in fact, they do have weight and are being acted upon
by the force of gravity.